A kind of lumps of wood processing unit (plant)
Technical field
The present invention relates to wood processing fields, more particularly to a kind of lumps of wood processing unit (plant).
Background technique
Timber refers to the wooden materials for civil building, usually by for softwood and hard material, timber master used in engineering
It is derived from the trunk part of trees, timber is exactly a kind of main construction material because of acquirement and handling ease since ancient times, building
The lumps of wood is commonly called as timber being needed to be sawed into the rectangular wood strip of certain specification shape according to actual processing, is generally used for filling for the lumps of wood
Repair and sash stuff, the shuttering supporting and roof truss material in structure construction, or do various wood furnitures all can, lumps of wood process
Middle cutter device is most commonly used tool, but existing lumps of wood cutting device for processing is needed in use to timber
The lumps of wood can be just cut by carrying out multidirectional cutting, and efficiency is lower.
Summary of the invention
The object of the present invention is to provide a kind of lumps of wood processing unit (plant)s, can effectively solve the problems of the prior art;This hair
It is bright that round log can disposably cut into the lumps of wood, it is high in machining efficiency.
The purpose of the present invention is achieved through the following technical solutions:
A kind of lumps of wood processing unit (plant), including rack, delivery device, force feed mechanism, straight-cut mechanism, cross cutting mechanism
And driving mechanism, the delivery device are fixed on the front end of rack;The force feed mechanism is connected to the centre of rack;The longitudinal direction
Cutting mechanism is connected to the rear end of rack;The cross cutting mechanism is connected to the rear end of straight-cut mechanism;The driving machine
Structure is connected in straight-cut mechanism;The driving mechanism transmission connection straight-cut mechanism and cross cutting mechanism.
The delivery device includes the stand of L shape, lifting seat, electric pushrod, L shape push plate, lead screw and control turntable;It is described
L shape stand is fixed on the front end of rack;The lifting seat is slidably fitted in the vertical core of L shape stand;The upper end of the lead screw is solid
Fixed connection control turntable, the lower end of lead screw is rotatably assorted on lifting seat;The fixing end of the electric pushrod is fixed on lifting seat
On;The movable end of the electric pushrod is fixedly connected with the front end of L shape push plate.
The force feed mechanism includes bracket, roller seat, roll shaft, pressure roller, T-shape ski board, spring seat board, guiding axis and stretches bullet
Spring;The lower end of the bracket is fixed on the centre of rack;The both ends of the bracket are slidably matched a roller seat respectively, two roller seats
The more roll shafts in upper end difference uniform rotation connection front and back, fix a pressure roller respectively on more roll shafts;The lower end of two roller seats
It is respectively fixedly connected with the upper end of a T-shape ski board, two levels that the middle part of two T-shape ski boards is slidably fitted in rack respectively are sliding
In hole, two T-shape ski boards are located at the both ends of spring seat board, and spring seat board is fixed on the centre of rack bottom surface;The spring seat board
Both ends be fixedly connected respectively by more extension springs with two pieces of T-shape ski boards;The guiding axis is equipped with two, two guiding axis
It is separately fixed in two horizontal slide openings, is slidably fitted in the middle part of two T-shape ski boards on two guiding axis.
The L shape push plate is located at the centre of bracket top surface.
The driving mechanism includes servo motor, worm screw, worm gear, universal driving shaft, pedestal plate, the first pivoted arm, the second pivoted arm,
Three pivoted arms and the 4th pivoted arm;The servo motor is fixed in straight-cut mechanism by motor cabinet;The servo motor it is defeated
Shaft is fixedly connected with one end of worm screw by shaft coupling;The other end of the worm screw is fixedly connected with one end of the first pivoted arm, and first
The other end of pivoted arm, which is rotatably assorted, connects one end of the second pivoted arm, and the other end of the second pivoted arm, which is rotatably assorted, is connected to straight-cut
In mechanism;The worm screw is connected by meshing transmission worm gear;The worm gear is fixed on the middle part of universal driving shaft, and the front end rotation of universal driving shaft is matched
It closes on pedestal plate, pedestal plate is fixed in straight-cut mechanism;The rear end of the universal driving shaft is fixedly connected with the one of third pivoted arm
End, the other end of third pivoted arm, which is rotatably assorted, connects one end of the 4th pivoted arm, and the other end of the 4th pivoted arm is rotatably assorted in transverse direction
On cutting mechanism.
The straight-cut mechanism includes longitudinal Saw blade, saw carriage, mounting rack, longitudinal lifter plate, lifting pulling frame, lifting
Axis, limit sliding sleeve, horizontal slider, reverse-flighted screw, screw bolt seat and adjusting switch block;There are two the longitudinal direction Saw blade is set, two vertical
Pass through a saw carriage respectively to the rear end of Saw blade to be fixed on two longitudinal lifter plates, the upper and lower ends of two longitudinal lifter plates
It is slidably fitted in the upper hopper chute of mounting rack and in gliding groove respectively;A lifting is fixed in the upper end of two longitudinal lifter plates respectively
Pull frame;Two liftings pull frame to pass through intermediate rectangle sliding slot respectively and are slidably fitted on a limit sliding sleeve, two limits
Sliding sleeve is separately fixed on two horizontal sliders, and two horizontal sliders are symmetrically connected to the both ends of reverse-flighted screw by screw thread, and two
A horizontal slider is slidably fitted on the top surface of mounting rack;The both ends of the reverse-flighted screw are rotatably assorted respectively in a screw bolt seat
On, two screw bolt seats are all fixed on mounting rack;One end of the reverse-flighted screw is fixedly connected with adjusting switch block;Two liftings are drawn
The upper end of moving frame is slidably fitted on lifting shaft;The lifting shaft is rotatably assorted on the second pivoted arm;Servo motor passes through motor
Seat is fixed on mounting rack;The pedestal plate is fixed on mounting rack.
The straight-cut mechanism further includes position-limited rack, and position-limited rack is fixed on mounting rack;The lifting shaft is slidably matched
In the vertical slide opening of position-limited rack.
The straight-cut mechanism further includes stock guide;The stock guide is equipped with two pieces, the inner end difference of two pieces of stock guides
It is fixed on the outer end of two saw carriages;Obtuse angle structure is constituted between two pieces of stock guides and two pieces of longitudinal Saw blades.
The straight-cut mechanism further includes stablizing guide pad, rectangular shaft and sliding shoe;The stable guide pad is equipped with two
It is a, the opposite both ends for being slidably fitted in mounting rack of two stable guide pads;The outer end of two pieces of stock guides is separately fixed at two surely
Determine the outer end of guide pad;A rectangular shaft is fixed in the inner end of two stable guide pads respectively, slides and matches respectively in two rectangular shafts
Unify a sliding shoe;The inner end of two sliding shoes is respectively fixedly connected with the centre of two longitudinal lifter plates.
The cross cutting mechanism includes rectangle fixed frame, horizontal sawtooth item, horizontal seat, linkage board, locating piece, positioning spiral shell
Bar, locking nut, adjusting screw rod and guide runner;There are two the rectangle fixed frame is set, two rectangle fixed frames are fixed respectively
In the left and right of mounting rack rear end;There are two the horizontal sawtooth item is set, two horizontal sawtooth items are separately fixed at two horizontal seats
Front end;A locating piece is fixed on two horizontal seats respectively;Be rotatably assorted a positioning screw respectively on two locating pieces, and two fixed
The middle part of position screw rod is slidably fitted in the upper and lower ends of the perpendicular slideway of linkage board respectively, and the outer end of two positioning screws passes through respectively
It is threadedly coupled a locking nut, is held out against on the lateral surface of linkage board on the inside of two locking nuts;The linkage board it is upper
End, which is rotatably assorted, connects the other end of the 4th pivoted arm;The upper and lower ends of two rectangle fixed frames are connected through a screw thread a tune respectively
Screw rod is saved, the inner end of four adjusting screw rods is rotatably assorted respectively connects a guide runner;Two guide runners positioned at upper end
It is slidably fitted in two T shape sliding slots at the horizontal seat both ends of upper end;Two guide runners positioned at lower end are slidably fitted in
In two T shape sliding slots at the horizontal seat both ends of lower end.
Two horizontal sawtooth items are vertically arranged with two longitudinal Saw blades.
The invention has the benefit that round log can disposably be cut into the lumps of wood by the present invention, it is high in machining efficiency;The present invention
Straight-cut mechanism and cross cutting mechanism can be adjusted according to the size of the lumps of wood of required processing, convenient for being cut into difference
The lumps of wood of size;Inside of the invention is equipped with delivery device and force feed mechanism, can will be to by delivery device and force feed mechanism
The timber of processing reduces manpower to push at straight-cut mechanism and cross cutting mechanism, improves processing efficiency.
Detailed description of the invention
Fig. 1 is overall structure diagram one of the invention;
Fig. 2 is overall structure diagram two of the invention;
Fig. 3 is overall structure diagram three of the invention;
Fig. 4 is the structural schematic diagram of internal rack of the present invention;
Fig. 5 is the structural schematic diagram of delivery device inside the present invention;
Fig. 6 is the structural schematic diagram of force feed mechanism inside the present invention;
Fig. 7 is the structural schematic diagram one of straight-cut mechanism inside the present invention;
Fig. 8 is the structural schematic diagram two of straight-cut mechanism inside the present invention;
Fig. 9 is the structural schematic diagram one of inner transverse cutting mechanism of the present invention;
Figure 10 is the structural schematic diagram two of inner transverse cutting mechanism of the present invention;
Figure 11 is the partial enlargement structure chart of inner transverse cutting mechanism of the present invention;
Figure 12 is the structural schematic diagram of internal driving mechanism of the present invention.
In figure: rack 1;Delivery device 2;L shape stand 201;Lifting seat 202;Electric pushrod 203;L shape push plate 204;Silk
Thick stick 205;Control turntable 206;Force feed mechanism 3;Bracket 301;Roller seat 302;Roll shaft 303;Pressure roller 304;T-shape ski board 305;Spring base
Plate 306;Guiding axis 307;Extension spring 308;Straight-cut mechanism 4;Longitudinal Saw blade 401;Saw carriage 402;Mounting rack 403;It is vertical
To lifter plate 404;Lifting pulls frame 405;Lifting shaft 406;Limit sliding sleeve 407;Horizontal slider 408;Reverse-flighted screw 409;Screw rod
Seat 410;Adjust switch block 411;Position-limited rack 412;Stock guide 413;Stablize guide pad 414;Rectangular shaft 415;Sliding shoe 416;Laterally
Cutting mechanism 5;Rectangle fixed frame 501;Horizontal sawtooth item 502;Horizontal seat 503;Linkage board 504;Locating piece 505;Positioning screw
506;Locking nut 507;Adjusting screw rod 508;Guide runner 509;Driving mechanism 6;Servo motor 601;Worm screw 602;Worm gear
603;Universal driving shaft 604;Pedestal plate 605;First pivoted arm 606;Second pivoted arm 607;Third pivoted arm 608;4th pivoted arm 609.
Specific embodiment
Invention is further described in detail by 1-12 with reference to the accompanying drawing.
Specific embodiment 1:
As shown in figs. 1-12, a kind of lumps of wood processing unit (plant), including rack 1, delivery device 2, force feed mechanism 3, straight-cut
Mechanism 4, cross cutting mechanism 5 and driving mechanism 6, the delivery device 2 are fixed on the front end of rack 1;The force feed mechanism 3 connects
It connects in the centre of rack 1;The straight-cut mechanism 4 is connected to the rear end of rack 1;The cross cutting mechanism 5 is connected to vertical
To the rear end of cutting mechanism 4;The driving mechanism 6 is connected in straight-cut mechanism 4;The transmission connection of driving mechanism 6 is vertical
To cutting mechanism 4 and cross cutting mechanism 5.A kind of lumps of wood processing unit (plant) of the invention first will be to when carrying out timber processing
The timber of cutting is placed on the inside of force feed mechanism 3, then controls the upper end that delivery device 2 is pressed on the front end of timber, then
Driving mechanism 6 is connect and is electrically activated, driving mechanism 6 can drive straight-cut mechanism 4 and cross cutting mechanism 5 to carry out together after starting
Work is walked, delivery device 2 is finally controlled and pushes timber, so that timber is under the impetus of delivery device 2 in force feed mechanism 3
Inside moves from front to back, and timber is first contacted with straight-cut mechanism 4, and straight-cut mechanism 4 carries out the left and right ends of timber
Longitudinal cutting work, timber continue movement backward and contact with cross cutting mechanism 5, and 5 pairs of cross cutting mechanism is through straight-cut
The upper and lower ends of timber afterwards carry out lateral cutwork, finally make wood cutting at the lumps of wood;In process, Ke Yigen
Straight-cut mechanism 4 and cross cutting mechanism 5 is adjusted in the size for the lumps of wood being processed into according to the size or needs of timber.
Specific embodiment 2:
As shown in figs. 1-12, the delivery device 2 is pushed away including L shape stand 201, lifting seat 202, electric pushrod 203, L shape
Pressing plate 204, lead screw 205 and control turntable 206;The L shape stand 201 is fixed on the front end of rack 1;The lifting seat 202 is sliding
Dynamic cooperation is in the vertical core of L shape stand 201;The upper end of the lead screw 205 is fixedly connected with control turntable 206, the lower end of lead screw 205
It is rotatably assorted on lifting seat 202;The fixing end of the electric pushrod 203 is fixed on lifting seat 202;The electric pushrod
203 movable end is fixedly connected with the front end of L shape push plate 204.The delivery device 2 is used to carry out the upper end of timber to be processed
It compresses and timber is pushed;After timber to be clamped in the inside of force feed mechanism 3, rotation control turntable 206 drives lead screw 205
Rotation, the position that lead screw 205 is contacted with L shape stand 201 when lead screw 205 rotates change, and then by passing through 205 band of lead screw
Dynamic lifting seat 202 slides up and down in 201 vertical core of L shape stand, and then drives two electric pushrods by lifting seat 202
The level height of 203 and L shape push plate 204 is adjusted, and then the transverse slat for being adjusted to L shape push plate 204 is pressed on timber
Upper end;Then two electric pushrods 203 are connect and is electrically activated, two electric pushrods 203 drive the riser of L shape push plate 204 to hold out against
On timber and thrust will be generated to timber, and cut timber to straight-cut mechanism 4 close to and by longitudinal direction in force feed mechanism 3
Mechanism 4 is cut to be cut.
Specific embodiment 3:
As shown in figs. 1-12, the force feed mechanism 3 includes bracket 301, roller seat 302, roll shaft 303, pressure roller 304, T-shape ski board
305, spring seat board 306, guiding axis 307 and extension spring 308;The lower end of the bracket 301 is fixed on the centre of rack 1;Institute
The both ends for stating bracket 301 are slidably matched a roller seat 302 respectively, the upper end difference uniform rotation connection front and back of two roller seats 302
More roll shafts 303 fix a pressure roller 304 on more roll shafts 303 respectively;The lower end of two roller seats 302 is respectively fixedly connected with one
The upper end of a T-shape ski board 305, the middle part of two T-shape ski boards 305 are slidably fitted in respectively in two horizontal slide openings of rack 1, and two
A T-shape ski board 305 is located at the both ends of spring seat board 306, and spring seat board 306 is fixed on the centre of 1 bottom surface of rack;The spring base
The both ends of plate 306 are fixedly connected by more extension springs 308 with two pieces of T-shape ski boards 305 respectively;The guiding axis 307 is equipped with
Two, two guiding axis 307 are separately fixed in two horizontal slide openings, and the middle part of two T-shape ski boards 305 is slidably fitted in two
On guiding axis 307.The force feed mechanism 3 is used to be clamped the both ends of timber fixed and L shape push plate 204 is cooperated to make wood
Material conveys cutting backward, when work, timber is placed between multiple pressure rollers 304 of two sides, multiple pressure rollers 304 of two sides are being drawn
Stretch the both ends that timber is clamped under the elastic force effect of spring 308;When L shape push plate 204 generates thrust to timber, timber is multiple
It is moved backward between pressure roller 304, two sides are clamped fixation to timber by pressure roller 304, so that pressure roller when timber moves backward
304 around own axis, and resistance is smaller and stablizing effect is preferable, and the setting of the more extension springs 308 in two sides, so that two sides
Multiple pressure rollers 304 between fixation can be clamped to various sizes of timber.
Specific embodiment 4:
As shown in figs. 1-12, the L shape push plate 204 is located at the centre of 301 top surface of bracket.
Specific embodiment 5:
As shown in figs. 1-12, the driving mechanism 6 include servo motor 601, worm screw 602, worm gear 603, universal driving shaft 604,
Pedestal plate 605, the first pivoted arm 606, the second pivoted arm 607, third pivoted arm 608 and the 4th pivoted arm 609;The servo motor 601 is logical
Motor cabinet is crossed to be fixed in straight-cut mechanism 4;The output shaft of the servo motor 601 is fixedly connected with worm screw by shaft coupling
602 one end;The other end of the worm screw 602 is fixedly connected with one end of the first pivoted arm 606, and the other end of the first pivoted arm 606 turns
One end of dynamic second pivoted arm 607 that is cooperatively connected, the other end of the second pivoted arm 607, which is rotatably assorted, to be connected in straight-cut mechanism 4;
The worm screw 602 is connected by meshing transmission worm gear 603;The worm gear 603 is fixed on the middle part of universal driving shaft 604, before universal driving shaft 604
End is rotatably assorted on pedestal plate 605, and pedestal plate 605 is fixed in straight-cut mechanism 4;The rear end of the universal driving shaft 604 is solid
Surely one end of third pivoted arm 608 is connected, the other end of third pivoted arm 608, which is rotatably assorted, connects one end of the 4th pivoted arm 609, and the 4th
The other end of pivoted arm 609 is rotatably assorted in cross cutting mechanism 5.Servo motor 601 inside the driving mechanism 6 connects electricity and opens
Worm screw 602 can be driven to rotate after dynamic, worm screw 602 can drive the first pivoted arm 606 to be rotated when rotating, the first pivoted arm
606 other end drives shuttle push-and-pull campaign of second pivoted arm 607 to the progress up and down direction of straight-cut mechanism 4, in turn
Straight-cut mechanism 4 is driven to carry out longitudinal cutwork to timber;The worm screw 602 rotate when can drive worm gear 603 around
Own axis, worm gear 603 can drive universal driving shaft 604 to be rotated when rotating, and universal driving shaft 604 can drive the when rotating
Three pivoted arms 608 are rotated, and the other end of third pivoted arm 608 can drive cross cutting mechanism 5 by the 4th pivoted arm 609
The reciprocating push-and-pull campaign of horizontal direction is carried out, and then carries out lateral cutwork to timber.
Specific embodiment 6:
As shown in figs. 1-12, the straight-cut mechanism 4 includes longitudinal Saw blade 401, saw carriage 402, mounting rack 403, indulges
Frame 405, lifting shaft 406, limit sliding sleeve 407, horizontal slider 408, reverse-flighted screw 409, screw rod are pulled to lifter plate 404, lifting
Seat 410 and adjusting switch block 411;There are two the longitudinal direction Saw blade 401 is set, the rear end of two longitudinal Saw blades 401 passes through respectively
One saw carriage 402 is fixed on two longitudinal lifter plates 404, and the upper and lower ends of two longitudinal lifter plates 404 are slidably matched respectively
In the upper hopper chute and gliding groove of mounting rack 403;The upper end of two longitudinal lifter plates 404 fixes a lifting respectively and pulls frame
405;Two liftings pull frame 405 to be slidably fitted on a limit sliding sleeve 407 by intermediate rectangle sliding slot respectively, two limits
Position sliding sleeve 407 is separately fixed on two horizontal sliders 408, and two horizontal sliders 408 are symmetrically connected to two-way spiral shell by screw thread
The both ends of bar 409, two horizontal sliders 408 are slidably fitted on the top surface of mounting rack 403;The both ends of the reverse-flighted screw 409
It is rotatably assorted on a screw bolt seat 410 respectively, two screw bolt seats 410 are all fixed on mounting rack 403;The reverse-flighted screw
409 one end, which is fixedly connected with, adjusts switch block 411;Two liftings pull the upper end of frame 405 to be slidably fitted on lifting shaft 406;
The lifting shaft 406 is rotatably assorted on the second pivoted arm 607;Servo motor 601 is fixed on mounting rack 403 by motor cabinet;
The pedestal plate 605 is fixed on mounting rack 403.The straight-cut mechanism 4 is used to carry out the left and right sides of timber longitudinal
Cutwork, adjust the distance between two longitudinal Saw blades 401 before work switch block 411 can be adjusted by rotation,
Convenient for by wood cutting, at the various sizes of lumps of wood, rotation, which adjusts switch block 411, can drive reverse-flighted screw 409 to rotate, two-way spiral shell
Bar 409 can drive two horizontal sliders 408 to be moved toward one another or counter motion when rotating, and then transfer two limit sliding sleeves
407 are moved toward one another or counter motion, and then drive two liftings pulling progress phases of framves 405 by two limit sliding sleeves 407
To movement or counter motion, two liftings pull the upper end of frame 405 to be slided on lifting shaft 406, are drawn by two liftings
The longitudinal lifter plates 404 of the drive of moving frame 405 two are moved toward one another or counter motion, and two longitudinal lifter plates 404 pass through two
Saw carriage 402 drives the position of two longitudinal Saw blades 401 to be adjusted;First pivoted arm 606 rotate when, the first pivoted arm 606 it is another
One end drives the reciprocating push-and-pull campaign of the progress up and down direction of lifting shaft 406 by the second pivoted arm 607, and lifting shaft 406 drives two
A lifting pulls frame 405 to carry out elevating movement, the final reciprocating lifting for driving two longitudinal Saw blades 401 to carry out up and down direction
Movement, and then the left and right ends of timber are vertically cut by the sawtooth of two longitudinal Saw blades 401.
Specific embodiment 7:
As shown in figs. 1-12, the straight-cut mechanism 4 further includes position-limited rack 412, and position-limited rack 412 is fixed on mounting rack
On 403;The lifting shaft 406 is slidably fitted in the vertical slide opening of position-limited rack 412.The setting of position-limited rack 412, for improving lifting
Axis 406 carries out stability when the reciprocating push-and-pull campaign of up and down direction, plays the role of guiding.
Specific embodiment 8:
As shown in figs. 1-12, the straight-cut mechanism 4 further includes stock guide 413;The stock guide 413 is equipped with two pieces,
The inner end of two pieces of stock guides 413 is separately fixed at the outer end of two saw carriages 402;Two pieces of stock guides 413 and two pieces of longitudinal Saw blades
Obtuse angle structure is constituted between 401.The setting of stock guide 413, for the timber under being cut by two longitudinal Saw blades 401 to give up
Material exports outward, prevents it from influencing the work of the subsequent machining of timber.
Specific embodiment 9:
As shown in figs. 1-12, the straight-cut mechanism 4 further includes stablizing guide pad 414, rectangular shaft 415 and sliding shoe
416;There are two the stable guide pad 414 is set, two opposite both ends for being slidably fitted in mounting rack 403 of stable guide pad 414;
The outer end of two pieces of stock guides 413 is separately fixed at the outer end of two stable guide pads 414;The inner end of two stable guide pads 414
A rectangular shaft 415 is fixed respectively, and be slidably matched a sliding shoe 416 respectively in two rectangular shafts 415;Two sliding shoes 416
Inner end be respectively fixedly connected with the centres of two longitudinal lifter plates 404.Stablize guide pad 414, rectangular shaft 415 and sliding shoe 416
Setting for improving stability when lifter plate 404 slides up and down, lifter plate 404 can drive sliding shoe when moving up and down
416 slide in rectangular shaft 415, finally play the effect that two pieces of auxiliary longitudinal Saw blades 401 stablize cutting.
Specific embodiment 10:
As shown in figs. 1-12, the cross cutting mechanism 5 includes rectangle fixed frame 501, horizontal sawtooth item 502, horizontal seat
503, linkage board 504, locating piece 505, positioning screw 506, locking nut 507, adjusting screw rod 508 and guide runner 509;It is described
There are two rectangle fixed frame 501 is set, two rectangle fixed frames 501 are separately fixed at the left and right of 403 rear end of mounting rack;The transverse direction
There are two Saw blade 502 is set, two horizontal sawtooth items 502 are separately fixed at the front end of two horizontal seats 503;On two horizontal seats 503
A locating piece 505 is fixed respectively;Be rotatably assorted a positioning screw 506 respectively on two locating pieces 505, two positioning screws
506 middle part is slidably fitted in the upper and lower ends of the perpendicular slideway of linkage board 504, the outer end difference of two positioning screws 506 respectively
It is connected through a screw thread a locking nut 507, the inside of two locking nuts 507 is held out against on the lateral surface of linkage board 504;Institute
The upper end for stating linkage board 504, which is rotatably assorted, connects the other end of the 4th pivoted arm 609;The upper and lower ends of two rectangle fixed frames 501
It is connected through a screw thread an adjusting screw rod 508 respectively, the inner end of four adjusting screw rods 508 is rotatably assorted connection one respectively and is oriented to
Sliding block 509;Two guide runners 509 positioned at upper end are slidably fitted in two T shape sliding slots positioned at 503 both ends of horizontal seat of upper end
It is interior;Two guide runners 509 positioned at lower end are slidably fitted in two T shape sliding slots at 503 both ends of horizontal seat of lower end.
Two horizontal sawtooth items 502 are vertically arranged with two longitudinal Saw blades 401.
Two horizontal sawtooth items 502 inside the cross cutting mechanism 5 are used to carry out laterally the upper and lower ends of timber
Cutwork;The distance between two horizontal sawtooth items 502 can be adjusted, when adjusting, first by locating piece 505 and connection
The locking nut 507 of 504 contact position of movable plate unscrews, and allows positioning screw 506 upper and lower in the perpendicular slideway of linkage board 504
Then sliding rotates two adjusting screw rods 508 of upper end or rotates two adjusting screw rods 508 of lower end, and then band simultaneously simultaneously
The height of the guide runner 509 of dynamic upper end changes or drives the height of the guide runner 509 of lower end to change, final logical
Crossing guide runner 509 drives the height of horizontal seat 503 and horizontal sawtooth item 502 to change, and realizes to 502 position of horizontal sawtooth item
Adjusting;Locking nut 507 is screwed after adjusting, so that linkage board 504 and locating piece 505 are relatively fixed;4th pivoted arm 609
Linkage board 504 is driven to carry out the reciprocating of left and right directions, linkage board 504 drives two horizontal seats by two locating pieces 505
503 carry out the reciprocating of horizontal direction, and two horizontal seats 503 drive two horizontal sawtooth items 502 to carry out skiver to timber
Make;It is slided on two guide runners 509 when horizontal 503 left right horizontal movement of seat, guide runner 509 plays the work of guide support
With.
The operation principle of the present invention is that: a kind of lumps of wood processing unit (plant) of the invention first will be to when carrying out timber processing
The timber of cutting is placed on the inside of force feed mechanism 3, then controls the upper end that delivery device 2 is pressed on the front end of timber, then
Driving mechanism 6 is connect and is electrically activated, driving mechanism 6 can drive straight-cut mechanism 4 and cross cutting mechanism 5 to carry out together after starting
Work is walked, delivery device 2 is finally controlled and pushes timber, so that timber is under the impetus of delivery device 2 in force feed mechanism 3
Inside moves from front to back, and timber is first contacted with straight-cut mechanism 4, and straight-cut mechanism 4 carries out the left and right ends of timber
Longitudinal cutting work, timber continue movement backward and contact with cross cutting mechanism 5, and 5 pairs of cross cutting mechanism is through straight-cut
The upper and lower ends of timber afterwards carry out lateral cutwork, finally make wood cutting at the lumps of wood;In process, Ke Yigen
Straight-cut mechanism 4 and cross cutting mechanism 5 is adjusted in the size for the lumps of wood being processed into according to the size or needs of timber.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention
Protect range.